DE2841906C2 - Liquid ring compressor or vacuum pump - Google Patents

Description

The invention relates to liquid ring compressors or vacuum pumps according to the preamble of the claim 1.

A unit of the type mentioned is known from DE-AS 31 451, in which the individual components are arranged in housings directly adjacent to one another and only as a whole from the outside four lines for gas and operating fluid must be connected.

In the known arrangement, the liquid separator is part of a motor housing Distributor for gas and operating fluid and therefore in its size and spatial assignment to the paddle wheel and the connections for gas and operating fluid are also concentrated at the distributor, so that certain installation and assembly difficulties arise when laying the external pipelines and

ίο because of the extension of all parts in the direction of the Motor shaft can result. In addition, the size and shape of the liquid separator is relatively small dimensioned so that it is not suitable as a storage container and to accommodate a heat exchanger, or would be necessary for applications with circuit switching of the operating fluid.

The invention is based on the object of creating an assembly of the type mentioned at the outset the one not influenced in its size by design features of the manifold and in its Size of limited separation, cooling and storage container is interchangeable, with the omission of one with the motor housing one-piece distributor, the connection options for gas and operating fluid are variable and the length of the unit in the direction of the motor shaft solely through the housing for the compressor or the vacuum pump and the motor size can be determined and for one Circuit switching of the operating fluid is possible.

The problem posed is achieved through the characterizing features of claim 1.

A particularly compact embodiment of the invention is the subject of claim 2, which as a Embodiment is shown in the drawing and explained below. It shows

F i g. 1 a connection diagram of the parts of the subject invention,

2 shows the object of FIG. 1 in perspective simplified representation.

The two cuboid housing blocks I and II have on the flat outer sides Ia and Ua facing each other congruent connection openings 1, 2 and 3, which are sealed to the outside by a connection part KT and with channels A ', B', C delimited by inner walls in the housing block I or A ", B", C " in the housing block II. The channel A ' is with the suction side and the connection opening l. the channel β' with the pressure side of the liquid ring compressor or the vacuum pump P and the Connection opening 2, the channel C with the connection opening 3, a heat exchanger WT1 for the electric motor M and the liquid outflow KWA in the housing block I. The channel A "is connected to the connection opening 1 and via a heat exchanger WT2 for the operating fluid with the outflow of the liquid separator A. , the channel B " with the connection opening 2 and the inlet of the liquid separator and the channel C" with the liquid inflow KWE, the heat exchanger VVT 2 connected for the operating fluid and the connection opening 3 in the housing block II. The channels A ', A "and B', B" close the operating fluid circuit BF shown in dashed lines. In addition, the compressor or the vacuum pump P is connected on the suction side to a gas inlet GE in the housing block I, and the outlet of the liquid separator A is connected to the gas outlet GA in the housing block II.

The liquid inflow K WE \ sl on the face and

the gas outlet GA on the top of the housing block I !, the liquid outlet KWA on the side wall and the gas inlet GE on the top of the housing block 1, so that the outer supply and discharge lines for gas and cooling liquid do not stand in the way and the overall length of the aggregate only by the liquid together with the heat exchanger in the housing block II and by the pump or vacuum compressor P and the electric motor M together with the heat exchanger WTi in the housing block I determines the design of the separation and the storage space A and the heat exchanger WT2 may be independent of the spatial conditions of the Housing block! take place. The level, aligned undersides of both housing blocks allow simple and safe assembly on a common base.

1 sheet of drawings

Claims (2)

Patent claims: 1. Liquid ring compressor or vacuum pump with a liquid-cooled electric motor to drive the impeller and a liquid separator, whereby the individual components are arranged in adjacent housings, divided into chambers by inner walls, which are connected to one another without pipes and are sealed to the outside and form a unit that only has four external connections for Has gas inlet and outlet as well as liquid inlet and outlet, characterized in that the housing for the compressor or the vacuum pump (P ) forms a first housing block (1) with the housing for the liquid-cooled electric motor (M), which one with the Suction side of the compressor or the vacuum pump (P) has connected external gas inlet (GE) and an external cooling liquid outlet (KWA) as well as a flat outside (la) with connection openings (1, 2, 3) for gas and liquid, which are connected to corresponding connection openings ( 1, 2,3) in a flat outside (Ua) of a zw Eaten housing block (II) sealed (KT) are connected, which in turn has a liquid separator (A) designed as a cooling and storage container and a heat exchanger (WT2) for the operating liquid (BF) as well as an external gas outlet connected to the outlet of the liquid separator (A) (GA) and an external coolant supply (KWE) and that both housing blocksc channels (A ', B', C; A ", B", C ") , of which the channels (C , C") contain the cooling liquid inflow (KWE) via the heat exchanger (WT2) for the operating fluid (BF), the connection opening (3) and the heat exchanger CVVTl) for the Connect the electric motor (M) to the cooling liquid outlet (KWA) , the channels (B ', B " ) connect the inlet of the liquid separator (A) via the connecting opening (2) to the pressure side of the compressor or the vacuum pump f / y and the channels (C, C "^ connect the outflow of the liquid separator (A) via the heat exchanger (WT2) for the operating liquid (BF) and the connection opening (1) with the suction side of the compressor or the vacuum pump (P) so that the channels ( A ', A ", B'. B") form a closed wedge operating fluid circuit. 2. Liquid ring compressor or vacuum pump according to claim 1, characterized in that the housing blocks (I, II) are cuboid in shape and the gas inlets and outlets (GE, GA) each on the top, the cooling liquid inflow and outflow ( KWE, KWA) are each arranged laterally.